CN210367420U - Sealing brick structure and follow-up steel structure of kiln regenerator wall body and top arch - Google Patents

Abstract

The utility model discloses a sealed brick structure and follow-up steel construction of kiln regenerator wall body and top arch, include: the upper clearance brick is arranged on the wall body of the regenerator, and the upper surface of the upper clearance brick is provided with a step groove; the arch foot brick is arranged on the upper gap brick, and a Z-shaped brick seam is formed between the upper surface of the arch foot brick and the lower surface of the upper gap brick; the arch foot beam is buckled on one side of the arch foot brick and supported on the upper gap brick; the top thread seat is arranged on the heat storage chamber upright post; the jackscrew is arranged on the jackscrew seat and abuts against the arch foot beam; the support is arranged on the heat storage chamber upright post and is positioned above the top thread seat; the pull rod is connected with the top thread seat and the support. The utility model discloses can make and keep relative static between clearance brick and the arch foot brick, avoid leaking fire, reduce and protect kiln work load.

Description

Sealing brick structure and follow-up steel structure of kiln regenerator wall body and top arch

Technical Field

The utility model relates to a technical field of kiln especially relates to a sealed brick structure and follow-up steel construction of kiln regenerator wall body and top arch.

Background

The kiln equipment is the core equipment of a glass product production line, and the energy consumption performance and the service life of the kiln equipment are key indexes. The structure between the wall body and the top arch of the kiln regenerator with the traditional structure mainly has two modes:

the method is that the crown of the heat accumulation chamber is simply placed after the skewback bricks are placed on the wall body, and the main problem is that the wall body expands upwards in the kiln baking process, and the horizontal heights are not consistent, so that gaps are formed between the skewback bricks and the wall body. Although the wall can be blocked by pug outside, the fire is changed every 20 minutes in production, so that the height of the wall is changed in each fire changing period, and the sealed pug is easy to crack again and leak fire. The skewback is difficult to be independently adjusted, so that the safety of the regenerator arch is poor.

The second method is to pull the arch foot brick and the wall apart, seal the gap with the fiber cotton, and absorb the height of the wall expanding upwards in the kiln baking process through the fiber cotton, which mainly has the problems that the fiber cotton is difficult to work for a long time above 1400 ℃, the elastic shrinkage is lost soon, and the position still leaks fire.

The method has the advantages of large work load of the kiln, frequent hot repair and incapability of fundamentally solving the problems. Due to fire leakage, the burning loss of a steel structure outside the brick structure is serious, and the service life of the kiln is influenced. In addition, the air leakage amount is increased, negative pressure is formed in the regenerator, a large amount of cold air is sucked, the temperature in the kiln is reduced, and the energy consumption is increased. Meanwhile, the nitrogen oxide is increased, and the environmental protection pressure is increased.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a sealed brick structure and follow-up steel construction of kiln regenerator wall body and top arch.

The utility model adopts the technical scheme as follows:

a sealing brick structure and a follow-up steel structure of a wall body and a top arch of a regenerative chamber of a kiln, wherein the sealing brick structure comprises:

the upper clearance brick is arranged on the wall body of the regenerator, and a step groove is formed in the upper surface of the upper clearance brick;

the arch foot brick is arranged on the upper gap brick, and a Z-shaped brick seam is formed between the upper surface of the arch foot brick and the lower surface of the upper gap brick;

the skewback is buckled on one side of the skewback brick and supported on the upper gap brick;

the jackscrew seat is arranged on the heat storage chamber upright post;

the jackscrew is arranged on the jackscrew seat and abuts against the skewback;

the support is arranged on the heat storage chamber upright post and is positioned above the top thread seat;

the pull rod is connected with the wire jacking seat and the support.

The sealing brick structure and the follow-up steel structure of the wall body and the top arch of the kiln regenerator comprise a step groove of the upper gap brick, wherein the step groove of the upper gap brick comprises a primary step groove and a secondary step groove, the primary step groove extends from the upper surface of the upper gap brick to the side surface, and the secondary step groove is arranged on the bottom surface of the primary step groove.

In the sealing brick structure and the follow-up steel structure of the kiln regenerator wall body and the top arch, the lower surface of the arch foot brick extends downwards to form a convex block, and the convex block is arranged in the primary step groove.

The sealing brick structure and the follow-up steel structure of the wall body and the top arch of the kiln regenerator are characterized in that the upper side of the top wire seat is provided with a pull rod fixing part, and the lower end of the pull rod is fixedly connected with the pull rod fixing part.

The sealing brick structure and the follow-up steel structure of the wall body and the top arch of the kiln regenerator are characterized in that the pull rod fixing part is of an n-shaped plate structure.

The sealing brick structure and the follow-up steel structure of the wall body and the top arch of the kiln regenerator are characterized in that the upper end of the pull rod penetrates through the support and is detachably connected with the support.

The sealing brick structure and the follow-up steel structure of the wall body and the top arch of the kiln regenerator comprise two jackscrews, wherein the two jackscrews are horizontally arranged and are vertical to the arch foot beam.

The sealing brick structure and the follow-up steel structure of the wall body and the top arch of the kiln regenerator are characterized in that a cushion block is arranged between the arch foot beam and the upper gap brick.

The sealing brick structure and the follow-up steel structure of the wall body and the top arch of the kiln regenerator are characterized in that the cushion blocks and the lugs are positioned on two sides of the secondary step groove.

The utility model discloses owing to adopted above-mentioned technique, make it compare the positive effect that has with prior art and be:

(1) the utility model discloses can make and keep relative static between clearance brick and the arch foot brick, avoid leaking fire, reduce and protect kiln work load.

(2) The utility model discloses can avoid the jackscrew because the regenerator wall body rises and the bending that causes in the position of the artifical adjustment jackscrew in the regenerator outside to guarantee the security of regenerator arch.

Drawings

Fig. 1 is a schematic diagram of the sealing brick structure and the follow-up steel structure of the wall body and the top arch of the regenerator of the kiln of the utility model.

Fig. 2 is a schematic view of the sealing brick structure and the support brick of the follow-up steel structure of the wall body and the top arch of the regenerator of the kiln of the utility model.

Fig. 3 is a schematic view of the sealing brick structure and the foot beam of the follow-up steel structure of the wall body and the top arch of the regenerator of the kiln of the utility model.

Fig. 4 is a front view of the plug screw seat of the sealing brick structure and the follow-up steel structure of the wall body and the top arch of the regenerator of the kiln.

Fig. 5 is a side view of the plug screw seat of the sealing brick structure and the follow-up steel structure of the wall body and the top arch of the regenerator of the kiln.

Fig. 6 is a schematic view of the sealing brick structure and the support brick of the follow-up steel structure of the wall body and the top arch of the regenerator of the kiln of the utility model.

In the drawings: 1. an upper gap brick; 11. a first-stage stepped groove; 12. a secondary step groove; 2. skewback bricks; 21. a bump; 3. a skewback; 4. a jackscrew seat; 41. a pull rod fixing part; 5. carrying out top thread; 6. a support; 7. a pull rod; 8. and a cushion block.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

FIG. 1 is a schematic view of the sealing brick structure and the follow-up steel structure of the kiln regenerator wall and the crown of the present invention, FIG. 2 is a schematic view of the sealing brick structure and the follow-up steel structure of the kiln regenerator wall and the crown of the present invention, FIG. 3 is a schematic view of the sealing brick structure and the follow-up steel structure of the kiln regenerator wall and the crown of the present invention, FIG. 4 is a front view of the sealing brick structure and the follow-up steel structure of the kiln regenerator wall and the crown of the present invention, FIG. 5 is a side view of the sealing brick structure and the follow-up steel structure of the kiln regenerator wall and the crown of the present invention, FIG. 6 is a schematic view of the sealing brick structure and the follow-up steel structure of the kiln regenerator wall and the crown of the present invention, and FIGS. 1 to 6 show the sealing brick structure and the follow-up steel structure of the kiln regenerator wall and the crown of the kiln of the present invention, the method comprises the following steps: the upper gap brick 1 and the arch foot brick 2 are arranged on the wall body of the regenerator, and the upper surface of the upper gap brick 1 is provided with a step groove. The arch foot brick 2 is arranged on the upper gap brick 1, a Z-shaped brick seam is formed between the upper surface of the arch foot brick 2 and the lower surface of the upper gap brick 1, and the Z-shaped brick seam is designed to avoid fire leakage under the state of complete structure.

In addition, as a preferred embodiment, the sealing brick structure and the follow-up steel structure of the wall body and the crown of the kiln regenerator further comprise: the arch foot beam 3 is buckled at one side of the arch foot brick 2, and the arch foot beam 3 is supported on the upper gap brick 1.

In addition, as a preferred embodiment, the sealing brick structure and the follow-up steel structure of the wall body and the crown of the kiln regenerator further comprise: the top thread seat 4 is arranged on the heat storage chamber upright post, and the top thread seat 4 is arranged on the heat storage chamber upright post.

Further, as a preferred embodiment, the sealing brick structure and the follow-up steel structure of the wall body and the crown of the kiln regenerator further comprise: the jackscrew 5 is arranged on the jackscrew seat 4, and the jackscrew 5 is propped against the arch foot beam 3.

Furthermore, as a preferred embodiment, the sealing brick structure and the follow-up steel structure of the wall body and the crown of the kiln regenerator further comprise: and the support 6 is arranged on the heat storage chamber upright post, and the support 6 is positioned above the top wire seat 5.

Still further, as a preferred embodiment, the sealing brick structure and the follow-up steel structure of the wall body and the crown of the kiln regenerator further comprise: and the pull rod 7 is connected with the jackscrew seat 4 and the support 6.

Because the friction force between the jackscrew seat 4 and the regenerator upright is very large, the jackscrew seat 4 may not rise with the rise of the regenerator wall, causing the jackscrew 5 to bend, and the skewback of the skewback 3 is lost. The upper end of the pull rod 7 is positioned at the outer side of the regenerator, and the pull rod 7 can be manually adjusted, so that the position of the jackscrew 5 is further adjusted, the jackscrew 5 can be always vertical to the skewback 3, and the upper gap brick 1 and the skewback 2 do not move relatively, so that the structural integrity of the upper gap brick 1, the skewback 2 and the skewback 3 is ensured, and the fire leakage is avoided.

In addition, as a preferred embodiment, the step groove of the upper gap brick 1 includes a primary step groove 11 and a secondary step groove 12, wherein the primary step groove 11 extends from the upper surface to the side surface of the upper gap brick 1, and the secondary step groove 12 is opened at the bottom surface of the primary step groove 11.

In addition, as a preferred embodiment, the lower surface of the skewback brick 2 extends downward to form a bump 21, and the bump 21 is disposed in the primary step groove 11.

The above is merely an example of the preferred embodiments of the present invention, and the embodiments and the protection scope of the present invention are not limited thereby.

The utility model discloses still have following embodiment on above-mentioned basis:

in a further embodiment of the present invention, please continue to refer to fig. 1 to fig. 6, the upper side of the jackscrew seat 4 has a pull rod fixing portion 41, and the lower end of the pull rod 7 is fixedly connected to the pull rod fixing portion 41.

In a further embodiment of the present invention, the rod fixing portion 41 is a n-shaped plate structure.

In a further embodiment of the invention, the upper end of the pull rod 7 extends through the support 6 and is detachably connected to the support 6.

In a further embodiment of the present invention, the two jackscrews 5 are included, the two jackscrews 5 are horizontally arranged, and the two jackscrews 5 are perpendicular to the arch foot beam 3.

In a further embodiment of the utility model, a cushion block 8 is arranged between the arch foot beam 3 and the upper gap brick 1.

In a further embodiment of the present invention, the cushion block 8 and the projection 21 are located on both sides of the second-stage step groove 12.

The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.

Claims (9)

1. The utility model provides a kiln regenerator wall body and sealed brick structure and follow-up steel construction of top arch which characterized in that includes:

the upper clearance brick is arranged on the wall body of the regenerator, and a step groove is formed in the upper surface of the upper clearance brick;

the arch foot brick is arranged on the upper gap brick, and a Z-shaped brick seam is formed between the upper surface of the arch foot brick and the lower surface of the upper gap brick;

the skewback is buckled on one side of the skewback brick and supported on the upper gap brick;

the jackscrew seat is arranged on the heat storage chamber upright post;

the jackscrew is arranged on the jackscrew seat and abuts against the skewback;

the support is arranged on the heat storage chamber upright post and is positioned above the top thread seat;

the pull rod is connected with the wire jacking seat and the support.

2. The kiln regenerator wall and crown seal brick construction and follow-up steel construction of claim 1, wherein the step groove of the upper gap brick comprises a primary step groove and a secondary step groove, wherein the primary step groove extends from the upper surface to the side surface of the upper gap brick, and the secondary step groove opens at the bottom surface of the primary step groove.

3. The kiln regenerator wall and crown seal brick construction and follow up steel construction of claim 2, wherein the lower surface of the skewer brick extends downward to form a projection, the projection being disposed within the step groove.

4. The kiln regenerator wall and crown seal brick structure and follow up steel structure of claim 1, wherein the upper side of the jackscrew seat has a tie rod fixing part, and the lower end of the tie rod is fixedly connected with the tie rod fixing part.

5. The sealing brick structure and follow-up steel structure of kiln regenerator wall and crown according to claim 4, wherein said tie rod fixing portion is of a n-shaped plate structure.

6. The kiln regenerator wall and crown seal brick construction and follow up steel construction of claim 1, wherein the upper ends of said tie rods extend through and are removably connected to said supports.

7. The kiln regenerator wall and crown seal brick structure and follow-up steel structure of claim 1, comprising two said jackscrews, both of which are horizontally disposed and both of which are perpendicular to said skewer.

8. The kiln regenerator wall and crown seal brick and follow up steel structure of claim 3, wherein a spacer block is provided between said skewer and said upper gap brick.

9. The kiln regenerator wall and crown seal brick construction and follow up steel construction of claim 8, wherein the pads and lugs are located on both sides of the secondary step groove.

Images